通过自动纤维定量法测量的白质微结构损伤与肺癌患者的疼痛症状相关。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Li Ran, Jiang Liu, Xiaosong Lan, Xiaoyu Zhou, Yong Tan, Jing Zhang, Yu Tang, Lin Tang, Jiuquan Zhang, Daihong Liu
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引用次数: 0

摘要

研究肺癌癌痛患者(CP+)的白质(WM)改变,并探讨受损的WM纤维束与临床指标的相关性。研究人员招募了 26 名 CP+、26 名无 CP(CP-)的肺癌患者和 31 名健康对照组(HC)。所有参与者均接受了弥散张量成像(DTI)和临床评估。采用自动纤维量化(AFQ)技术识别了20个WM纤维束,并提取了分数各向异性(FA)、平均扩散率(MD)、轴向扩散率(AD)和径向扩散率(RD)。这些扩散指标的组间比较是基于整个纤维束水平和每个束的 100 个节点水平进行的。分析了扩散指标的改变与数字评分量表(NRS)评分以及疼痛持续时间之间的关联。在整体水平上,CP + 组的右侧海马棘突(CH_R)的 WM 结构受损。在点状水平上,CP + 组表现出广泛的结节 FA 降低或 MD、RD 和 AD 升高。此外,CP + 组的右下纵筋束(ILF_R,结节 71-75)后部的 AD 与疼痛持续时间呈正相关,而 CH_R(结节 22-38)的 FA 与 NRS 评分呈负相关。广泛的WM微结构损伤可能是肺癌CP患者脑部异常的一种模式,尤其是沿疼痛相关纤维束的特异性结节破坏可能是表征CP严重程度和持续时间的敏感影像生物标志物。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
White matter microstructure damage measured by automated fiber quantification correlates with pain symptoms in lung cancer patients.

To investigative the white matter (WM) alterations in lung cancer patients with cancer pain (CP+), and explore the correlations between damaged WM fiber tracts and clinical indicators. Twenty-six CP+, 26 lung cancer patients without CP (CP-), and 31 healthy controls (HC) were recruited. All participants underwent diffusion tensor imaging (DTI) and clinical assessments. Automated fiber quantification (AFQ) technique was performed to identify the 20 WM fiber bundles, and the fractional anisotropy (FA), mean diffusivity (MD), axial diffusivity (AD), and radial diffusivity (RD) were extracted. Intergroup comparisons of these diffusion metrics were conducted based on the entire fiber bundle level and 100 node levels along each tract. The associations between altered diffusion metrics and the numeric rating scale (NRS) scores, as well as the pain duration, were analyzed. At the entire level, the CP + group showed impaired WM structure in the right cingulum hippocampus (CH_R). At the pointwise level, the CP + group exhibited extensive nodal FA reduction or MD, RD, and AD elevation. In addition, the AD of the posterior portion of the right inferior longitudinal fasciculus (ILF_R, nodes 71-75) in the CP + group was positively correlated with the pain duration, and the FA of CH_R (nodes 22-38) was negatively correlated with NRS score. Extensive WM microstructural damage may be a pattern of brain abnormalities in lung cancer patients with CP, and in particular, specific nodal disruption along pain-related fiber tracts may be a sensitive imaging biomarker to characterize the severity and duration of CP.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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